I would like to represent a value as a 64bit signed long
, such that values larger than (2**63)1 are represented as negative, however Python long
has infinite precision. Is there a 'quick' way for me to achieve this?



You could use
This is really only an option if you know for sure that a Edit: jorendorff's idea of defining a class for 64 bit numbers is appealing. Ideally you want to minimize the number of explicit class creations. Using
In this way the result of 


Can you use numpy? It has an int64 type that does exactly what you want.
It's transparent to users, unlike the ctypes example, and it's coded in C so it'll be faster than rolling your own class in Python. Numpy may be bigger than the other solutions, but if you're doing numerical analysis, you will appreciate having it. 


The quickest thing is probably to truncate the result to 64 bits yourself:
You can of course define your own numeric type that automatically does this every time you do any sort of arithmetic operation:
but that is not particularly "quick" to implement. 


Have a look at the ctypes module, it is used to call foreign DLLs/libraries from python. There a some data types that correspond to C types, for example


